Groove-forming method, control device for machine tool and tool path generating device

The invention claimed is: 1. A groove-forming method using a machine tool comprising a rotational feed axis and another feed axis to make a rotary tool and a workpiece relatively move to each other while forming a groove part in said workpiece, the rotary tool having a diameter smaller than a width of the groove part, said groove-forming method comprising: a machining step of making said rotary tool move relative to the workpiece along a tool path in a direction of extension of said groove part by the another feed axis while the workpiece is rotated relative to the rotary tool by the rotational feed axis, so as to machine said workpiece; determining a virtual rotary tool that has the same diameter as the width of the groove part; and repeating said machining step a plurality of times to form the groove part while changing a relative position of said rotary tool with respect to said workpiece so that a surface of said rotary tool contacts a surface of the virtual rotary tool when the virtual rotary tool is projected in the groove part to be formed and so that a center axis of the rotary tool is parallel with a center axis of the virtual rotary tool, wherein in each of the repeated machining steps, said rotary tool is moved to follow the tool path extending in the direction of extension of said groove part in a state in which the relative position of the rotary tool with respect to the virtual rotary tool is maintained as a position specific for the each of the repeated machining steps so that the surface of the rotary tool contacts the surface of the virtual rotary tool at a same point, while the relative position of the rotary tool with respect to the virtual rotary tool is changed from one machining step to another machining step, wherein the repeating of the machining step a plurality of times forms the groove part on a portion of the workpiece in which no material has been removed such that the repeated machining steps successively remove uncut portions of side surfaces of the groove part. 2. The groove-forming method according to claim 1 , wherein said machining step includes an outbound and return movement step which makes said rotary tool move reciprocating along a direction of extension of said groove part, one of side surfaces of said groove part is machined at an outbound path of said outbound and return movement step, and the other side surface of said groove part is machined while maintaining a rotation direction of rotation of said rotary tool the same as said rotation direction of said outbound path at a return path of said outbound and return movement step. 3. The groove-forming method according to claim 1 , wherein a range the contact with the surface of the virtual rotary tool which has the same diameter as said width of said groove part has a range of machining a side surface of said groove part and a range of not machining said side surface of said groove part, and said machining step is repeated a plurality of times while changing said relative position of said rotary tool in said range of machining said side surface of said groove part. 4. The groove-forming method according to claim 1 , which, when making a direction vertical to said direction of extension of said groove part a reference direction, performs machining a plurality of times while changing said relative position of said rotary tool with respect to said workpiece at the inside of a range of a predetermined angle with respect to said reference direction.